Litcius/Paper detail

Failure-Informed Adaptive Sampling for PINNs

Zhiwei Gao, Liang Yan, Tao Tang

2023SIAM Journal on Scientific Computing133 citationsDOI

Abstract

.Physics-informed neural networks (PINNs) have emerged as an effective technique for solving PDEs in a wide range of domains. It is noticed, however, that the performance of PINNs can vary dramatically with different sampling procedures. For instance, a fixed set of (prior chosen) training points may fail to capture the effective solution region (especially for problems with singularities). To overcome this issue, we present in this work an adaptive strategy, termed failure-informed PINNs (FI-PINNs), which is inspired by the viewpoint of reliability analysis. The key idea is to define an effective failure probability based on the residual, and then, with the aim of placing more samples in the failure region, the FI-PINNs employs a failure-informed enrichment technique to adaptively add new collocation points to the training set, such that the numerical accuracy is dramatically improved. In short, similar to adaptive finite element methods, the proposed FI-PINNs adopt the failure probability as the posterior error indicator to generate new training points. We prove rigorous error bounds of FI-PINNs and illustrate their performance through several problems.Keywordsphysics-informed neural networksfailure probabilityadaptive samplingMSC codes35R3065K1068T20

Topics & Concepts

Adaptive samplingCollocation (remote sensing)ResidualReliability (semiconductor)Set (abstract data type)Sampling (signal processing)Gravitational singularityRange (aeronautics)Mathematical optimizationMathematicsComputer scienceFinite element methodKey (lock)Uncertainty quantificationAlgorithmMachine learningMonte Carlo methodStatisticsMathematical analysisMaterials sciencePhysicsThermodynamicsComputer visionProgramming languageComposite materialQuantum mechanicsFilter (signal processing)Computer securityPower (physics)Model Reduction and Neural NetworksProbabilistic and Robust Engineering DesignNuclear Engineering Thermal-Hydraulics